JP2005242585A - Information processor and theft preventing method for information processor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information processor for detecting the movement of the information processor even when a main power source is turned off, and for turning on a main power source after the movement is detected in order to improve operability for an authorized carrier, and to make it difficult for an unauthorized carrier to release warning and a method for preventing the theft of the information processor. <P>SOLUTION: This information processor and a method for preventing the theft of the information processor is characterized in that an acceleration sensor 8 installed in an information processor 1 detects the movement of the information processor 1, and a power source control part 6 turns on the main power source of the information processor 1 based on the movement detection signal from the acceleration sensor 8, and a warning generating means 4 generates warning when the factor of the turning-on of the main power source is based on the movement detection signal. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an information processing apparatus having an antitheft function and an antitheft method for the information processing apparatus.

  In recent years, the progress of technology for reducing the size and weight of information processing devices has been remarkable. Particularly in the field of personal computers, notebook personal computers that are easy to carry while ensuring high functionality and high performance have become widespread. Notebook personal computers are widely used in place of conventional desktop personal computers not only for business trips and on-the-go use but also for ordinary workplaces and homes.

  Since these small information processing apparatuses represented by notebook personal computers are easy to carry, various anti-theft measures have been studied.

  For example, Patent Document 1 discloses a small antitheft device that can be attached to an information processing device. This small anti-theft device has a built-in vibration sensor, and determines whether it is taken out or not based on the vibration period. When it is determined that there is a take-out, a sound for alarm is generated from the built-in speaker, and the sound continues to be generated unless the authentication by the password known only to the authorized owner is successful.

  Patent Document 2 discloses an information processing apparatus incorporating an anti-theft function. Whether or not the information is taken out is determined based on information from a distance sensor, an illuminance sensor, or a gyro sensor built in the information processing apparatus. In the case of no take-out, the operation of power-on password authentication or password authentication for encryption composite is not required and the user operability is improved.

  On the other hand, if there is a take-out, an alarm is generated, and a power-on password authentication or password authentication for decryption is requested from the take-out person. If the authentication fails, the activation sequence is stopped and the use of the take-out person becomes impossible. Is.

Further, Patent Document 3 discloses an information processing apparatus that incorporates an anti-theft function and can be realized with low power consumption and low cost. The switch disposed on the bottom surface of the information processing device detects that the information processing device has been lifted, and issues a warning from a sound source dedicated to the warning. An authorized holder can stop the alarm by inputting a password for releasing the alarm.
JP-A-9-198576 JP 2000-155876 A JP 2002-99347 A

  The form in which the information processing device and the antitheft device are configured separately (for example, Patent Document 1) has an advantage that the antitheft device can be attached to various information processing devices.

  However, in order to prevent unauthorized takers from easily removing the antitheft device, it is necessary to mount the antitheft device inside the information processing device, which is inconvenient to install. Also, if the anti-theft device is mounted inside the information processing device, the legitimate holder has poor accessibility to the anti-theft device even when entering a password to cancel the alarm.

  On the other hand, Patent Documents 2 and 3 incorporate an antitheft function in the information processing apparatus itself.

  In general, the anti-theft function of the information processing apparatus is required when there is no legitimate holder and the main power of the information processing apparatus is turned off. In many information processing apparatuses, even when the main power is turned off, a function for determining whether the main power switch is turned on, a clock function, and the like are operating. However, the power consumed for these functions is low power, and on the premise of this, many power supply systems are configured when the main power is turned off. Therefore, even if the anti-theft function is incorporated in the information processing apparatus itself, the power consumed by the anti-theft function needs to be able to be realized with low power.

  Patent Document 3 discloses an anti-theft function with low power consumption that improves the invention disclosed in Patent Document 2 as disadvantageous in terms of power consumption.

  However, in the inventions disclosed so far, even if the anti-theft function is incorporated in the information processing apparatus, the function of the information processing apparatus and the anti-theft function are configured as independent functions. For this reason, when an alarm is generated by mistake, a legitimate holder inputs a password for canceling the alarm and cancels the alarm, and a method for inputting a power-on password for starting the information processing apparatus Each was different, and there was an inconvenience in operability for the rightful holder.

  In addition, since the functions of the information processing device and the anti-theft function are configured as independent functions, only the anti-theft function is activated when taking out, and specifically, the anti-theft is limited by voice alerts. Only measures can be taken.

  In addition, unauthorized persons are expected to take actions such as turning off the power switch, removing the battery, or lowering the volume in order to stop the alarm when it occurs. Until now, sufficient disclosure has not been made.

  The present invention has been made in view of the above-described circumstances, and is an information processing apparatus and an information processing apparatus that have high operability for a legitimate holder and cannot easily release an alarm for an unauthorized takeout person. Theft prevention method is provided.

  In order to solve the above-described problem, an information processing apparatus according to claim 1 includes a main body, an input unit for inputting information, and an information processing unit for processing information input from the input unit. A movement detection sensor provided on the main body for detecting movement of the main body, a power control unit for turning on the main power supply of the main body based on a movement detection signal from the movement detection sensor, and a main power supply being turned on based on the movement detection signal And an alarm generating means for generating an alarm when the alarm occurs.

  According to a fifteenth aspect of the present invention, there is provided an antitheft method for an information processing apparatus that detects movement of the information processing apparatus with a movement detection sensor, and the movement detection sensor outputs a movement detection signal when movement of the information processing apparatus is detected. The main power supply of the information processing apparatus is turned on based on a movement detection signal from the sensor, and an alarm is generated when the factor that the main power supply is turned on is based on the movement detection signal.

  According to the information processing apparatus and the anti-theft method of the information processing apparatus according to the present invention, the operability is high for a legitimate holder, and the alarm cannot be easily canceled for an illegal takeout person. Have

  A first embodiment of an information processing apparatus and an antitheft method for an information processing apparatus according to the present invention will be described with reference to the accompanying drawings.

  FIG. 1 is an external view showing an embodiment of an information processing apparatus of the present invention. As shown in FIG. 1, the information processing apparatus 1 includes an information processing unit 2 and a main display 3.

  The information processing apparatus (main body) 1 includes an acceleration sensor 8 as a movement detection sensor that detects movement of the information processing apparatus 1. Furthermore, a built-in speaker 41 is provided as means for generating an alarm when the movement of the information processing apparatus 1 is detected.

  On the upper surface of the information processing unit 2, a keyboard 102 and a pointing device 103 are provided as an input unit 10 for inputting various data.

  A main power switch 7 for starting up the information processing apparatus 1 and an auxiliary display 9 are also provided on the upper surface of the information processing unit 2.

  Various shapes can be considered for the shape and size of the information processing apparatus 1 shown in FIG. 1 or the shape, size, and position of each component of the information processing apparatus 1. Further, the information processing apparatus 1 may have a configuration using a part of the components shown in FIG.

  Next, the basic configuration of the information processing apparatus 1 according to the present invention will be described using the basic system diagram shown in FIG.

  In the information processing apparatus 1, the information processing unit 2, the input unit 10, and the power supply control unit 6 are connected to each other via a bus 11. The information processing unit 2 is connected to a main display 3 that displays various information and an alarm generation means 4 that generates an alarm. The power control unit 6 is connected to the main power switch 7, the acceleration sensor 8, and the auxiliary display 9.

  Various forms of the information processing apparatus 1 are conceivable, but a typical form is a notebook personal computer. In a notebook personal computer, the input unit 10 is generally composed of a keyboard 102 and a pointing device 103. Moreover, the main display 3 is comprised by a liquid crystal display (LCD: Liquid Crystal Display) etc.

  The information processing apparatus 1 can perform various types of information processing such as document creation, spreadsheet, information collection and data retrieval via the Internet. These functions of the information processing apparatus 1 are functions that the information processing apparatus 1 originally has, and are hereinafter referred to as basic information processing functions.

  The information processing apparatus 1 according to the present invention is configured by adding a theft prevention function of the information processing apparatus 1 in addition to the basic information processing function.

  Taking a document as an example, an outline of the basic information processing function of the information processing apparatus 1 from the start operation to the end of the information processing apparatus 1 will be described.

  Even in the power-off state, the power supply control unit 6 of the information processing apparatus 1 is always in an operating state by the power of the internal battery or the power supplied from the outside via the AC adapter. Similarly, even in the power-off state, power is supplied to the auxiliary display 9 so that the user can visually check the state of charge of the battery and the presence or absence of external power supply. The power consumption of the power controller 6 and the auxiliary display 9 is sufficiently small compared to the power consumption in the power-on state.

  The information processing apparatus 1 is activated when the user presses the main power switch 7, for example. The power controller 6 recognizes that the main power switch 7 has been pressed and turns on the main power. That is, the battery power or the power from the AC adapter is supplied to each component such as the information processing unit 2 and the alarm generating unit 4 and each unit of the main display 3. This state is a power-on state.

  Next, the information processing unit 2 sequentially starts up an input / output device control program called BIOS (Basic Input / Output System) and basic software called OS (Operating System).

  At this time, an authentication process using a power-on password is performed in order to authenticate that the user is an authorized holder of the information processing apparatus 1. That is, the power-on password entered by the user from the input unit 10 according to the display on the main display 3 and the power-on password registered in advance in the information processing unit 2 by the authorized holder in advance are determined to match. In other words, the activation sequence is advanced only when authentication is successful.

  In addition to password authentication, the authentication process includes authentication using a small and easy-to-carry key that is called a token held only by the right holder. The authentication token includes a so-called USB key that can be attached to and detached from a USB (Universal Serial Bus) connector provided in the information processing apparatus 1, an IC card, a memory card, and the like.

  The legitimate holder performs authentication by inserting the token into the information processing apparatus 1. By authenticating the data stored in the token and the data stored in the information processing apparatus 1, it is authenticated that the user is a legitimate holder.

  Normally, the right holder can register the necessity / unnecessity of the authentication process in the information processing apparatus 1 in advance.

  If the authentication is successful with a power-on password or the like, the user (legitimate holder) can start an application program such as a document creation program under the control of the OS.

  Since the end sequence of the information processing apparatus 1 is normally performed under the control of the OS, it is not necessary to press the main power switch 7. When the OS is terminated, the power off state is automatically reached.

  The above is the outline sequence of the basic information processing function. When the information processing apparatus 1 is a stationary type and cannot be taken out easily, the use of the information processing apparatus 1 by an unauthorized user can be excluded by the authentication process.

  However, when the information processing apparatus 1 is a portable type, unauthorized removal or theft cannot be eliminated only by the authentication process. Therefore, the portable information processing apparatus 1 particularly needs an anti-theft function.

  Next, the basic function of the antitheft function of the information processing apparatus 1 will be described using the basic system diagram of FIG.

  As shown in FIG. 2, the acceleration sensor 8 is connected to the power supply control unit 6. The acceleration sensor 8 is fixed to the information processing apparatus 1 and detects an acceleration generated along with the movement when the information processing apparatus 1 moves by being taken out or the like. The detected acceleration signal can be used as a movement detection signal. Although the acceleration sensor 8 functions as a movement detection sensor, a gyro sensor, a GPS (Global Positioning System), etc. can be considered as the movement detection sensor.

  The acceleration sensor 8 is energized even in the power-off state, like the power supply control unit 6. For this reason, movement can be detected even when the information processing apparatus 1 is in the power-off state, and a movement detection signal can be transmitted to the power supply control unit 6.

  The power supply control unit 6 determines that the movement is detected using the movement detection signal from the acceleration sensor 8. The power supply control unit 6 that has detected the movement automatically enters the main power supply and starts the activation sequence automatically.

  The information processing apparatus 1 that has been in the power-off state automatically shifts to the power-on state due to movement by taking out. In the power-on state, power is supplied to all components of the information processing apparatus 1 such as the information processing unit 2, the alarm generating unit 4, and the main display 3. For this reason, by making full use of the various functions that the information processing apparatus 1 originally has, it is possible to exhibit an anti-theft function that is highly effective against unauthorized take-out persons, while the right holder For this, it is possible to invalidate the anti-theft function by an easy operation.

  FIG. 3 is a basic flowchart showing a basic processing flow of the information processing apparatus 1. The basic processing flow will be described with reference to FIG.

  Assume that the information processing apparatus 1 is in a power-off state as an initial state. The power supply control unit 6 of the information processing apparatus 1 is energized even in the power-off state, and determines whether or not the setting of the anti-theft function is set to “valid” (S1).

  The anti-theft function can be set to “valid” or “invalid” in advance when the right holder is in a power-on state. The setting is, for example, a non-volatile provided in the power supply control unit 6. Stored in memory.

  When the anti-theft function is set to “invalid”, the apparatus is on standby in the power-off state. In this case, when the main power switch 7 of the information processing apparatus 1 is pressed regardless of whether the user is a legitimate holder or an unauthorized user (S3), the power control unit 6 presses the switch 7. Recognize that the main power is turned on. When the main power is turned on, power is supplied to the information processing unit 2 and the like of the information processing apparatus 1 to start a startup sequence.

  On the other hand, when the anti-theft function is set to “valid” (Yes in S1), the power control unit 6 of the information processing apparatus 1 always monitors the signal from the acceleration sensor 8 (S2).

  When the information processing apparatus 1 is moved, the acceleration sensor 8 detects the acceleration generated by the movement and sends an acceleration detection signal to the power supply control unit 6. The power supply control unit 6 determines movement detection based on the acceleration detection signal. If it is determined that movement has been detected (Yes in S2), the power control unit 6 automatically turns on the main power, and power is supplied to the information processing unit 2 and the like.

  The power supply control unit 6 holds information as to whether the factor that caused the main power supply to be turned on is based on movement detection or due to pressing of the main power switch 7.

  The information processing unit 2 inputs this information from the power supply control unit 6 via the bus 11 and determines the cause of the main power on (S5).

  Thus, the means for determining the main power-on factor is constituted by the power control unit 6 and the information processing unit 2.

  If it is determined that the main power-on factor is based on movement detection, an alarm generation process (S6) is performed. Various methods are conceivable for the alarm generation process (S6). For example, an alarm can be generated using an alarm generation unit that mainly includes the built-in speaker 41 of the information processing apparatus 1.

  Next, the information processing unit 2 performs an alarm release authentication process (S7). Various methods are conceivable for the alarm release authentication process (S7), but by making it the same as the authentication method at the time of power-on of the basic information processing function, it is possible to reduce the operation burden of the right holder. For example, when the power-on authentication method of the basic information processing function is based on the power-on password, the main password of the information processing apparatus 1 that requests the password input is the same as the password for canceling the alarm and the power-on password. By making the display 3 display the same, it is possible to reduce the operation burden of the right holder.

  In particular, when an authorized person carelessly moves the information processing apparatus 1 and an alarm is generated as a result, it is desirable that the alarm can be canceled in a short time. Legitimate holders use power-on passwords on a daily basis. Therefore, if the password for resetting the alarm and the power-on password are the same and the input method is the same, the alarm can be canceled in a short time because it is a method that is well learned on a daily basis.

  The reason why such alarm canceling means can be taken is based on the fact that the main power supply is automatically turned on after movement detection and the information processing unit 2 of the information processing apparatus 1 is in the same power-on state as the basic information processing function.

  When the password registered in advance by the legitimate holder matches the password entered in the authentication process (S7), that is, when the authentication is successful (Yes in S8), the information processing unit 2 cancels the alarm ( S9). Thereafter, the anti-theft function is automatically set to “invalid” in order to avoid another alarm based on movement by the rightful holder (S10). Furthermore, a power-off process (S11) is automatically performed to reach a power-off state.

  On the other hand, if the authentication fails, it is regarded as a movement by an unauthorized take-out person, and a standby is performed in a state where an alarm is continuously generated (S12). Unless the authentication is successful, the alarm continues until the battery is depleted. Thereby, the unauthorized take-out person abandons the take-out of the information processing apparatus 1 and can prevent theft.

  On the other hand, when the main power supply is not based on movement detection and is based on pressing of the main power switch 7 (no in S5), the basic information processing function can be executed by normal power-on processing (S13). , S14).

  Moreover, the right holder can perform the security setting process (S15) in the power-on state. The security setting process is a process of setting the anti-theft function to “valid” or “invalid”, or setting the registration or change of a power-on password.

  Although the information processing apparatus 1 is in the power-off state by the power-off process (S16), the security setting content is stored even in the power-off state.

  Next, the detailed configuration of the first embodiment of the information processing apparatus 1 will be described with reference to FIG. The same components as those in the basic system diagram of FIG. 2 are denoted by the same reference numerals. The description will focus on the parts different from FIG.

  The information processing apparatus 1 is configured by connecting an information processing unit 2, a power supply control unit 6, and an input unit 10 via a bus 11.

  In the information processing unit 2, the CPU 51 is interconnected with a main memory 52, an HDD (Hard Disk Drive) 53, a display control unit 55, a CODEC (CODEr DECoder) 56, and a nonvolatile memory 57 via a bus signal conversion unit 54. Configured. The bus signal converter 54 converts the signals between the components so as to be compatible with each other.

  The CPU 51 reads out the BIOS stored in the non-volatile memory 57, the OS stored in the HDD 53, and application programs such as document creation, and then exchanges these programs and data with the main memory 52. Run each program.

  The display control unit 55 is a part that performs control for displaying data and images on the main display 3 of the information processing apparatus 1.

  The CODEC 56 has a function for encoding and decoding signals and data according to certain rules, an A / D conversion and a D / A conversion function, as well as a volume control and a mute function (a function for muting sound) of an analog audio circuit. Control.

  The alarm generation means 4 includes an amplifier 46 that amplifies the signal of the CODEC 56, a volume control unit 43 that adjusts the volume of the amplified signal, a bypass circuit 47 that bypasses the volume control unit 43, a built-in speaker 41 that generates sound, and a volume control. A volume adjustment function disabling switch 42 for switching between the unit 43 and the bypass circuit 47, a headphone connection detecting unit 44 for detecting that headphones are connected to the information processing apparatus 1, a mute function disabling switch 45, and the like. .

  An analog signal (for example, an alarm sound) from the CODEC 56 of the information processing unit 2 is input to the amplifier 46. The analog signal amplified by the amplifier 46 is input to the volume adjustment unit 43 via the volume adjustment function invalid switch 42. The volume control unit 43 has a function of adjusting the volume of the built-in speaker 41 when the user operates, for example, a volume control dial provided on the external side surface of the information processing apparatus 1.

  The volume adjustment function invalid switch 42 is means for invalidating the volume adjustment function.

  When the switch 42 is set on the bypass circuit 47 side under the control of the information processing unit 2, the volume adjustment function is disabled. Therefore, even if the user operates the volume adjustment dial of the volume adjustment unit 43, the volume of the built-in speaker 41 becomes the volume set by the information processing unit 2.

  The headphone connection detection unit 44 detects a connection when a user connects a headphone, a microphone, or the like to a connector provided on the external side surface of the information processing apparatus 1, and detects the connection to the amplifier 46 to reduce the gain of the amplifier 46. Signal). The sound of the built-in speaker 41 is muted by the mute signal. Therefore, for example, when the user connects headphones to the information processing apparatus 1, the sound from the built-in speaker 41 disappears, and the sound can be heard only from the headphones.

  The mute function invalidation switch 45 is means for invalidating the mute function. When the switch 45 is set to OFF by control from the information processing unit 2, the mute signal is cut off. As a result, the built-in speaker 41 is not muted even when headphones or a microphone are connected.

  The input unit 10 includes a keyboard 102 and a pointing device 103.

The pointing device 103 is, for example, a mouse or a touch pad, and indicates the position of the cursor on the screen of the main display 3 of the information processing apparatus 1.

  Next, detailed operations of the information processing unit 2, the alarm generation unit 4, and the input unit 10 related to the alarm generation function will be described with reference to detailed flowcharts of FIGS.

  FIG. 5 shows details of the alarm generation processing in step 6 (S6) of the basic flowchart shown in FIG.

  As the first step, the information processing section 2 sets the function of turning off the main power by the main power switch to “invalid” (S61). When the user presses the main power switch 7 of the information processing apparatus 1 in the power-on state, the power control unit 6 notifies the information processing unit 2 that the power control unit 6 has been pressed.

  Normally, the information processing unit 2 thereafter enters a power-off process and finally reaches a power-off state. However, if the main power on factor is due to movement detection, the information processing unit 2 sets the function of turning off the main power by the main power switch to “invalid”, so that the power can be turned on even when the main power switch 7 is pressed. The power-on state is maintained without shifting to the off process.

  Therefore, even if an unauthorized person tries to turn off the main power by pressing the main power switch 7 of the information processing apparatus 1, the main power cannot be turned off. As a result, the unauthorized taker cannot turn off the main power to stop the alarm.

  Thus, the means for disabling the function of turning off the main power supply is realized by the information processing unit 2.

  Next, the information processing section 2 sets the volume adjustment function to “invalid” (S62). Specifically, the volume adjustment function invalid switch 42 of the alarm generating means 4 is set on the bypass circuit 47 side. As a result, even if an unauthorized person tries to lower the alarm volume with the volume adjustment dial of the information processing apparatus 1, the volume is always set to the volume set by the information processing unit 2, for example, the maximum volume.

  The information processing section 2 further sets the mute function to “invalid” (S63). In normal use, the built-in speaker 41 is automatically muted by the mute function when a headphone or the like is connected for the convenience of the user, but this function is prohibited when the power is on based on the movement detection. To do.

  As a result, even if an unauthorized take-out person connects headphones or the like, the alarm of the built-in speaker 41 cannot be silenced.

  Step 64 (S64) is a process in which the CODEC 56 of the information processing unit 2 generates an alarm sound, thereby generating an alarm from the built-in speaker 41.

  FIG. 6 shows a detailed flowchart of the authentication process (S7 in FIG. 3).

  The information processing unit 2 requests a password for authentication of alarm release (S71). This password is used for authentication of alarm release, but by making it the same as the power-on password, it can be made highly operable for a legitimate holder. The password request is made using the screen of the main display 3 of the information processing apparatus 1. In this case as well, the operability can be improved by using the same screen as the normal power-on password request screen that is acquired by the rightful holder.

  The password input (S72) is also performed using the keyboard 102 of the information processing apparatus 1 in the same manner as the power-on password input.

  A match determination is made between the input password and a pre-registered password (S73). If they match, it is determined that the authentication is successful, and if they do not match, it is determined that the authentication is unsuccessful (S74, S75).

  In addition, by making the password for resetting the alarm and the power-on password the same, it is sufficient for the right holder to register only the power-on password, and it is not necessary to register the password for releasing the alarm separately. The operability can be improved.

  FIG. 7 shows a detailed flowchart of the security setting process (S15 in FIG. 3). In the security setting process, settings such as password registration and change are performed (S151), and the anti-theft function is set (S152).

  In the setting of the anti-theft function, either “valid” or “invalid” is set. When “valid” is set, the auxiliary display 9 (for example, LED: Light Emitting Diode) of the information processing apparatus 1 is turned on. When “invalid” is set, the auxiliary display 9 is turned off.

  The auxiliary indicator 9 is energized even in the power-off state, and the legitimate holder can confirm the lighting state of the information processing apparatus 1 by checking the lighting state visually. Accordingly, it is possible to prevent the legitimate holder from moving the information processing apparatus 1 and generating an alarm by mistake when the antitheft function is set to “valid”.

  FIG. 8 shows an example of the screen of the main display 3 at the time of security setting. As shown in Fig. 8, security settings are made possible by setting passwords (both power-on password and alarm reset password) registration, change processing, and theft prevention function settings on the same screen. Operation is simplified.

  FIG. 9 shows the configuration of the second embodiment of the information processing apparatus 1.

  In the second embodiment, a USB (Universal Serial Bus) connector 59 and an IC card reader 58 are added to the information processing unit 2 as compared with the first embodiment.

  In the first embodiment, an authentication method using a password is used as the authentication method. On the other hand, in the second embodiment, so-called token authentication is enabled. The token authentication includes a form using the USB key 100 and a form using the IC card 101.

  Authentication can be performed by inserting the USB key 100 in which the authentication information of the legitimate holder is stored in advance into the USB connector 59. The USB key 100 is small and easy to carry, and is managed only by a legitimate holder.

  With the USB key, the authentication operation can be performed more easily and quickly than the password authentication.

  Authentication using the IC card 101 has the same effect. The IC card 101 is obtained by embedding a memory and a CPU in a thin plastic card, for example. Authentication can be performed by storing authentication information of the right holder in the memory in the IC card 101 and inserting it into the IC card reader 58 of the information processing unit 2.

  Although FIG. 9 shows the authentication using the USB key 100 and the authentication using the IC card 101 together, any one of the authentication methods may be used.

  Any token authentication method can be used for both power-on authentication and alarm release authentication.

  In addition, there are various authentication methods such as a memory card, a wireless card, and biometric authentication such as a fingerprint verification method. Whichever authentication method is used, if the information processing apparatus 1 possesses power-on authentication, the information processing apparatus 1 can also be used for alarm release authentication as a theft prevention function.

  FIG. 10 shows a third embodiment of the information processing apparatus 1.

  The information processing apparatus 1 that requires a theft prevention function is a portable information processing apparatus. In general, many portable information processing apparatuses use a battery as a power source. Or there are many which use a battery and the power supply from the outside together.

  The battery is usually attached to the information processing apparatus 1 so as to be detachable relatively easily. For this reason, when an unauthorized take-out person removes the power from the outside of the information processing apparatus 1 and removes the battery, the power is not supplied to the power control unit 6 of the information processing apparatus 1 and the movement is detected. It may be impossible to do this.

  In the third embodiment, the main battery 200 and the sub battery 201 are held as batteries. In addition, it has a simple alarm generating means 205 that operates under the control of the power supply control unit 6. The power control unit 6 of the information processing apparatus 1 is configured to be supplied with power from the sub battery 201. On the other hand, the sub-battery 201 can be downsized because the power consumption of the power supply control unit 6 is small. Therefore, the sub-battery 201 is fixed inside the information processing apparatus 1 so that it cannot be easily removed by, for example, screwing.

  With this configuration, even if an unauthorized person removes the main battery 200, movement detection is possible by the power supply control unit 6 operating with the sub battery 201, and an alarm is generated by the simple alarm generation means 205 (for example, a buzzer). Can be made.

  Note that both the main battery 200 and the sub-battery 201 can be charged by the charging circuit 202 using electric power supplied from the outside via the AC adapter 204.

  FIG. 11 shows a flowchart of the fourth embodiment of the information processing apparatus 1. Differences from the basic flowchart of FIG. 3 will be mainly described.

  After the main power is turned on (S4), the information processing unit 2 determines whether the movement detection flag of the nonvolatile memory 57 of the information processing unit 2 is “1” or “0”. The movement detection flag is “1” when the main power supply is turned on based on movement detection at the previous use and the main power supply is turned off by means other than the authentication of the right holder. For example, when the main power source of the information processing apparatus 1 is turned on by an unauthorized takeout person moving the information processing apparatus, and then the main power source is turned off by removing the battery in order to release the alarm. “1”.

  If the movement detection flag is “1” (Yes in S100), the process jumps to step 6 to generate an alarm.

  On the other hand, when the movement detection flag is “0” (no in S100), it is determined whether or not the current main power-on factor is based on movement detection. If it is determined that the movement detection is based on movement detection (yes in S5), the movement detection flag of the nonvolatile memory 57 of the information processing unit 2 is set to “1”.

  Thereafter, an alarm is generated (S6). If authentication is successful in the authentication process (S7), that is, if it is determined that the user is a valid holder, the movement detection flag of the nonvolatile memory 57 is set to “0”.

  On the other hand, if authentication fails in the authentication process (S7), the movement detection flag remains “1” and the alarm continues to be generated. For example, when an unauthorized take-out person removes the battery in order to cancel the alarm, the alarm disappears, but the movement detection flag in the nonvolatile memory 57 remains “1”.

  Therefore, even if an unauthorized take-out person moves the information processing apparatus 1 and turns on the main power at another place, the alarm is generated again at the determination in step 100. For this reason, it is difficult for an unauthorized take-out person to continue using the information processing apparatus 1.

  FIG. 12 is a system diagram showing a fifth embodiment of the information processing apparatus 1.

  In the fifth embodiment, instead of the acceleration sensor 8 of the first embodiment, a gyro sensor 300 is provided, and the information processing unit 2 has a wireless LAN 301.

  The gyro sensor 300 has a function of detecting position information of the information processing apparatus 1. In the fifth embodiment, the power supply control unit 6 of the information processing apparatus 1 determines the movement detection based on the position information detected by the gyro sensor 300. For example, when the position of the information processing apparatus 1 has moved 10 meters or more with respect to the original position, it is determined that the movement has been detected. The process of automatically turning on the main power after the movement is detected is the same as in the first embodiment.

  On the other hand, when taken out by an unauthorized takeout person, the power-on state continues. The function to turn off the main power is also prohibited. Therefore, the wireless LAN 301 of the information processing unit 2 is in an operating state.

  Therefore, the position information of the information processing apparatus 1 detected by the gyro sensor 300 can be transmitted via the wireless LAN 301. With this function, it is possible to specify the position of the information processing apparatus 1 that has been illegally taken out.

  As described above, according to the present invention, it is possible to utilize functions supported by the information processing apparatus 1 by automatically turning on the main power supply of the information processing apparatus 1 by movement detection. It is possible to provide the information processing apparatus 1 having an anti-theft function that is highly effective for an unauthorized person and having high operability for a legitimate holder.

  Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, the constituent elements over different embodiments may be appropriately combined.

1 is an external view showing an embodiment of an information processing apparatus according to the present invention. The basic system diagram of the information processing apparatus. The basic flowchart of the said information processing apparatus. The detailed systematic diagram of the said information processing apparatus. The flowchart of an alarm generation process. The flowchart of an authentication process. The flowchart of a security process. The figure which shows an example of the main indicator screen which sets an antitheft function. The systematic diagram which shows 2nd embodiment of the information processing apparatus which concerns on this invention. The systematic diagram which shows 3rd embodiment of the information processing apparatus which concerns on this invention. The flowchart of 4th embodiment of the information processing apparatus which concerns on this invention. The systematic diagram which shows 5th embodiment of the information processing apparatus which concerns on this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Information processing apparatus 2 Information processing part 3 Main display 4 Alarm generating means 6 Power supply control part 7 Main power switch 8 Acceleration sensor 9 Auxiliary display 10 Input part 41 Built-in speaker 43 Volume adjustment function invalid switch 45 Mute function invalid switch 57 Nonvolatile memory 201 Sub battery 202 Main battery 205 Simple alarm generating means 300 Gyro sensor 301 Wireless LAN

Claims (17)

The body,
An input unit for inputting information;
An information processing unit for processing information input from the input unit;
A movement detection sensor provided on the main body for detecting movement of the main body;
A power control unit for turning on the main power of the main body based on a movement detection signal from the movement detection sensor;
Alarm generating means for generating an alarm when the main power supply is turned on based on the movement detection signal;
An information processing apparatus comprising: The movement detection sensor is an acceleration sensor,
The information processing apparatus according to claim 1, wherein the alarm generation unit is a speaker. The information processing unit includes means for determining a factor of turning on the main power supply;
When it is determined that the factor that the main power source is turned on is based on a movement detection signal from the movement detection sensor, invalid means for invalidating the function of the main body,
The information processing apparatus according to claim 1, further comprising: The invalidating means invalidating a function of turning off the main power;
Means for disabling the volume control function of the speaker;
Means for disabling the mute function of the speaker;
The information processing apparatus according to claim 3, further comprising at least one means. The information processing unit includes alarm release authentication means for releasing an alarm when the alarm release authentication information registered in advance matches the alarm release authentication information input from the input unit. The information processing apparatus according to 1 or 3. The information processing unit includes a power-on authentication unit that advances a startup sequence when authentication information input from the input unit at the start of startup matches authentication information registered in the information processing unit in advance. The information processing apparatus according to claim 5. 6. The alarm release authentication unit cancels an alarm when an alarm release password input from the input unit matches an alarm release password registered in the information processing unit in advance. Information processing device. The information processing unit includes power-on password authentication means for advancing a startup sequence when a password input from the input unit at the initial startup and a password stored in advance in the control unit match. Item 8. The information processing device according to Item 7. The information processing apparatus according to claim 1, further comprising setting means for previously enabling or disabling a function of generating an alarm of the alarm generation means. The information processing apparatus according to claim 9, further comprising an auxiliary display capable of displaying setting contents in the setting unit. The main body can be driven by a battery or an external power source,
The information processing apparatus according to claim 1, further comprising a sub-battery for supplying power to the power control unit. The main body stores information indicating that the main body has been moved when it is determined that the main power-on factor is based on a movement detection signal from the movement detection sensor. Having a non-volatile memory, and when the information stored in the non-volatile memory is information indicating that the main body has been moved, the function of generating an alarm of the alarm generating means is enabled, and the non-volatile memory The information processing apparatus according to claim 1, wherein when the information indicating that the main body has been moved is not stored, the function of generating an alarm of the alarm generation unit is disabled. The information processing apparatus according to claim 1, wherein the movement detection sensor is a gyro sensor capable of detecting position information of the main body. The main body has wireless communication means,
The information processing apparatus according to claim 13, wherein position information from the gyro sensor can be transmitted by the wireless communication unit. The movement of the information processing device is detected by a movement detection sensor,
The movement detection sensor outputs a movement detection signal when the movement of the information processing apparatus is detected,
Based on a movement detection signal from the movement detection sensor, the main power supply of the information processing apparatus is turned on,
When the factor that the main power is turned on is based on the movement detection signal,
An antitheft method for an information processing apparatus, characterized by generating an alarm. When the factor that the main power is turned on is based on the movement detection signal,
Disable the main power off function,
16. The information processing device theft prevention method according to claim 15, wherein a volume control function of a speaker of the information processing device is disabled. The information processing apparatus includes an input unit for inputting information,
The information processing apparatus according to claim 15 or 16, wherein an alarm is canceled when a password registered in advance in the information processing section of the information processing apparatus matches a password input from the input section. Anti-theft method.

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